Differential effects of follicle-stimulating hormone, insulin, and insulin-like growth factor I on hexose uptake and lactate production by rat Sertoli cells

The stimulatory effects of follicle-stimulating hormone (FSH), insulin, and insulin-like growth factor I (IGF-I) on lactate production and hexose uptake by Sertoli cells from immature rats were studied. The time-courses and the maximal stimulatory effects of FSH, insulin, and IGF-I on lactate production were virtually identical. When Sertoli cells were incubated in the presence of FSH in combination with insulin or IGF-I (submaximal doses), additive but no pronounced synergistic effects were observed. The stimulatory effects of FSH and insulin were not dependent on the presence of extracellular calcium. 2-Deoxy-D-glucose (2-DOG), an analogue of D-glucose, was used to investigate the hexose transport system of Sertoli cells. Uptake of 2-DOG was linear in time and virtually all of the intracellular 2-DOG was phosphorylated up to 30 min of incubation; 2-DOG uptake was inhibited by cytochalasin B, but not by cytochalasin E. D-glucose, but not D-galactose, appeared to be an effective competitor of 2-DOG uptake. The Km of 2-DOG uptake was not influenced by FSH, insulin, and IGF-I. FSH had no effect on the Vmax of 2-DOG uptake, whereas insulin and IGF-I caused a 30% stimulation of the Vmax. It is concluded that FSH, insulin, and IGF-I stimulate lactate production by cultured Sertoli cells, but that only insulin and IGF-I stimulate hexose transport. The insulin-like effect of FSH on Sertoli cells may principally involve stimulation of glycolytic enzyme activities.     

The second messenger pathway for germ cell-mediated stimulation of Sertoli cells.

Treatment of cultured rat Sertoli cells with FSH or dibutyryl cAMP for 30 min resulted in phosphorylation of the same Sertoli cell proteins. Different Sertoli cell proteins were phosphorylated after calcium ionophore A23187 and 12-O-tetradecanoylphorbol-13-acetate (TPA) treatment. A23187 stimulated the phosphorylation of hsp27, while TPA alone had no effect. TPA plus A23187 resulted in phosphorylation of a 14 kDa protein, in addition to hsp27. The effect of TPA plus A23187 was identical to that of germ cells on Sertoli cell protein phosphorylation. FSH-stimulated cAMP production by Sertoli cells was reduced by prior exposure of Sertoli cells to germ cells. The results indicate that germ cells stimulate Sertoli cells by the inositol trisphosphate/diacylglycerol mediated second messenger pathway. The results also suggest that the germ cell-activated pathway interacts within Sertoli cells to modulate Sertoli cell response to FSH.     

The role of calcium in follicle-stimulating hormone signal transduction in Sertoli cells.

Sertoli cells are hormonally regulated by follicle-stimulating hormone (FSH) acting upon a G-protein-linked cell surface FSH receptor. FSH increases intracellular cyclic AMP but the involvement of other signal transduction mechanisms including intracellular calcium in FSH action are not proven. Using freshly isolated rat Sertoli cells we measured cytosolic free ionized calcium levels by dual-wavelength fluorescence spectrophotometry using the calcium-sensitive fluorescent dye Fura2-AM. The cytosolic calcium concentration in unstimulated Sertoli cells was 89 +/- 2 nM (n = 151 experiments) and was markedly increased by either calcium channel ionophores (ionomycin, Bay K8644) or plasma membrane depolarization consistent with the presence of voltage-sensitive and -independent calcium channel in Sertoli cell membranes. Ovine FSH stimulated a specific, sensitive (ED50, 5.0 ng of S-16/ml), and dose-dependent (maximal at 20 ng/ml) rise in cytosolic calcium commencing within 60 s to reach levels of 192 +/- 31 nM after 180 s and lasting for at least 10 min. The effect of FSH was replicated by forskolin, cholera toxin, and dibutyryl cyclic AMP, suggesting that cyclic AMP may mediate the FSH-induced rise in cytosolic calcium. The FSH-induced rise in cytosolic calcium required extracellular calcium and was abolished by calcium channel blockers specific for dihydropyridine (verapamil, nicardipine), nonvoltage-gated (ruthenium red) or all calcium channels (cobalt). Thus FSH action on Sertoli cells involves a specific, rapid, and sustained increase in cytosolic calcium which requires extracellular calcium and involves both dihydropyridine-sensitive, voltage-gated calcium channels and voltage-independent, receptor-gated calcium channels in the plasma membranes of rat Sertoli cells. The replication by cyclic AMP of the effects of FSH suggests that calcium may be a signal-amplification or -modulating mechanism rather than an alternate primary signal transduction system for FSH in Sertoli cells.     

Retinoid modulation of plasminogen activator production in rat Sertoli cells

Tissue type (t) and urokinase type (u) plasminogen activators (PAs) have been shown to be secreted by Sertoli cells in the seminiferous tubules in a cyclic fashion and to be dependent upon FSH stimulation or upon the presence of adjacent spermatogenic cells. In the present study we have analyzed the production of PAs by retinoid-treated rat Sertoli cells. In addition, because retinoids modulate the response of Sertoli cells to FSH either potentiating or antagonizing its action, we have investigated a possible modulation of FSH-stimulated PA production. Under basal conditions, Sertoli cells, isolated from prepubertal rats, secrete predominantly uPA. A significant dose-dependent inhibition of uPA activity was observed after treatment with retinol, while no significant effect was detected upon tPA secretion. When Sertoli cells were cultured in the presence of 0.25 microM retinol, a significant inhibition of uPA activity was evident after 16 h of treatment and reached approximately 80% after 48 h of treatment. The analysis of the mRNA levels revealed that retinol induces an inhibition of the steady-state levels of uPA mRNA without affecting those of tPA. Moreover, retinol affected uPA mRNA levels by increasing mRNA turnover. The effect of retinoids on Sertoli cells isolated from older animals was less evident, possibly due to the reduced production of uPA with the increase of age of the donor animals. Our results on the effect of retinoids upon Sertoli cell uPA production reinforce the importance of retinoids in the control of postnatal testis development.     

Effect of uncoupling treatments on FSH-induced hyperpolarization of immature rat Sertoli cells from Sertoli cell-enriched cultures

Sertoli cell-enriched cultures isolated from immature rat testes by enzymic treatments were investigated by intracellular microelectrode recordings. The hyperpolarization of cells induced by FSH was independent of the age of the rats (7-37 days) and was unchanged by exposure to a hormone-free medium or to a glycine buffer of pH 3. It was reduced by treatments which decreased the electrical coupling between cells either by an increase of intracellular calcium [i.e. calcium ionophore (A 23187, 5 x 10(-6) M), general anaesthetic (heptanol, 3.5 mM) and uncoupler of oxidative phosphorylations (carbonylcyanide m-chlorophenylhydrazone-CCmP, 10(-6) M)] or by a decrease of extracellular calcium [i.e. 0Ca + EGTA (1 mM) medium]. These effects were partly or totally reversed by a recovery period in a drug-free medium. Similar results were obtained by an exposure to trypsin (0.05%) followed by a second mechanical dispersion, but new cell hyperpolarization was induced by a new exposure to FSH. This electrophysiological study suggests an initial effect of FSH on the junctional complex between Sertoli cells, then the control by calcium of this complex.     

Role of calcium fluxes in the sustained phase of angiotensin II-mediated aldosterone secretion from adrenal glomerulosa cells

When angiotensin II stimulates aldosterone secretion, it causes a rapid but transient mobilization of calcium from an intracellular pool and a sustained increase in the influx of calcium in adrenal glomerulosa cells. The present studies were undertaken to determine the respective roles of the two angiotensin II-induced changes in cellular calcium metabolism in modulating events during the sustained phase of cellular response which is thought to be mediated by the C-kinase branch of the calcium messenger system. The sustained response to angiotensin II is only 50% of maximal in cells pretreated with dantrolene in a concentration sufficient to inhibit the angiotensin II-induced mobilization of intracellular calcium. Also, if A23187 is added to cells simultaneously with 1-oleoyl-2-acetylglycerol (OAG), the aldosterone secretory response is similar to that seen after angiotensin II. However, if A23187 is added first and the transient aldosterone secretory response allowed to decay, and OAG then added, the sustained aldosterone secretory response is only 45-50% of maximal. Addition of the calcium channel agonist, BAY K 8644, with OAG leads to an aldosterone secretory response which is only 50% of maximal, but if upon addition of OAG and BAY K 8644 the cells are also exposed for 5 min to media containing 8 mM K+, then the sustained secretory response is maximal. These data imply that the initial transient rise in the [Ca2+] of the cell cytosol plays a role in determining the extent to which C-kinase is shifted from its calcium-insensitive to its calcium-sensitive form. The second group of experiments examined the relationship between the sustained angiotensin II-induced increase in plasma membrane calcium influx and the sustained aldosterone secretory response. The results show that in the presence of 1 microM nitrendipine or 2 mM extracellular K+, angiotensin II causes no increase in calcium influx and only a transient rather than a sustained increase in the rate of aldosterone secretion indicating that the sustained phase of the response is dependent upon a continued high rate of Ca2+ influx which regulates the rate of turnover of the activated C-kinase.     

A rat Sertoli cell factor similar to basic fibroblast growth factor increases c-fos messenger ribonucleic acid in cultured Sertoli cells

We have shown that the cultured Sertoli cell from the immature rat contains a fibroblast growth factor (FGF)-like factor. It behaves as a cationic peptide, is a potent competence factor for BALB/c3T3 mouse embryo fibroblasts, and displays a high affinity for heparin. Both bovine basic FGF and Sertoli cell FGF-like factor rapidly increase c-fos mRNA in cultured Sertoli cells. FSH, serum, and phorbol esters individually stimulate c-fos in cultured Sertoli cells whereas platelet-derived growth factor, epidermal growth factor, and insulin-like growth factor-I have little affect. However, unlike FSH, basic FGF does not stimulate an increase in cAMP and unlike either serum or phorbol esters, basic FGF does not stimulate phosphoinositol turnover or intracellular calcium changes. When Sertoli cell protein kinase C activity is suppressed by preexposure to phorbol ester, basic FGF continues to be a potent stimulator of c-fos, indicating that the calcium/phospholipid pathway is not involved in FGF induction. Basic FGF and FSH also increase jun-B mRNA levels in cultured Sertoli cells. In response to FGF, jun-B is more transiently increased than c-fos. In contrast, in response to FSH, jun-B persists longer than c-fos. These results indicate that cultured Sertoli cells contain a FGF-like factor that increases c-fos mRNA via a mechanism not involving cAMP and the calcium/phospholipid pathways. The different responsiveness of c-fos and jun-B to FSH and basic FGF may explain differences in the ultimate actions of these two ligands.     

A calcium ionophore-induced secretion in rabbit lacrimal gland in vivo

Local administration of the calcium ionophore, A-23187 increased basal fluid secretion (non-stimulated) from the cannulated main excretory duct of rabbit lacrimal gland in vivo. A-23187 also facilitated fluid secretion induced by submaximal dose of methacholine (0.1 μg/kg, intraarterially). The stimulatory effect of A-23187 was dependent on the extracellular calcium concentration. Lowering the extracellular calcium by addition of EGTA markedly depressed or abolished the responses to the ionophore while increasing the extracellular calcium with CaCl₂ enhanced it. The results suggest that A-23187 causes increase in cell membrane permeability to extracellular calcium and the rise in intracellular calcium activates the secretory process(es) by an unknown mechanism to produce fluid secretion in the rabbit lacrimal gland.     

Acute effects of adenosine triphosphates, cyclic 3',5'-adenosine monophosphates, and follicle-stimulating hormone on cytosolic calcium level in cultured immature rat Ssertoli cells.

The ability of ATP and FSH to induce intracellular calcium [Ca(2+)](i) changes in Sertoli cells is imperfectly understood and reports are conflicting. We have applied the single-cell microfluorometry technique with the calcium probe indo-1 to investigate [Ca(2+)](i) in individual cultured Sertoli cells. When cells were exposed to ATP, cAMP, and FSH, a fast and biphasic increase in [Ca(2+)](i) was obtained in 100%, 70%, and 56% of cells, respectively. Caffeine did not activate Ca(2+) mobilization, while thapsigargin suppressed the peak response. External calcium free-EGTA buffer suppressed the plateau phase, while blockers of voltage-operated Ca(2+) channels did not abolish the response to cAMP and ATP. We conclude that the three messengers mobilized Ca(2+) from intracellular thapsigargin-sensitive stores, which induced a subsequent Ca(2+) influx from the extracellular medium by a voltage-independent Ca(2+) entry. The well-documented mechanisms by which these messengers act on cells support the idea that they release Ca(2+) from smooth endoplasmic reticulum by two different pathways, or that FSH and cAMP first release ATP, which then acts on cells. Among the cells, 77% and 80% responded, respectively, to FSH and cAMP by a delayed long-lasting decrease in [Ca(2+)](i) that was never recorded in the presence of ATP. This suggests that FSH and cAMP also promote a slow redistribution of [Ca(2+)](i) from the exchangeable pool to the bound nonexchangeable pools. Involvement of voltage-operated and voltage-independent calcium channels in the response of Sertoli cells to ATP, FSH, and cAMP is discussed.     

Effects of ruthenium red, A23187 and D-600 on steroidogenesis in Y-1 cells.

The effects of the calcium antagonists ruthenium red and D-600 and the cation ionophore A23187 on steroidogenesis were investigated. Steroidogenesis triggered by corticotrophin and cyclic AMP was inhibited by each of the agents. Incubation of Y-1 cells with an excess of ethyleneglycol-bis-(beta-amino-ethylether)-N,N'-tetraacetic acid (EGTA) abolished the steroidogenic response to corticotrophin while the response to cyclic AMP was unaffected. The ability of ruthenium red and D-600 (1 . 10(-5) M), and A23187 (6 . 10(-6 M) to inhibit a response which does not require the presence of extracellular calcium (cyclic AMP induced steroidogenesis) suggests that they are altering intracellular calcium. Neither of the calcium antagonists nor the cation ionophore inhibited the steroidogenic response to exogenous pregnenolone, thereby suggesting that the cells were still viable. Only when A23187 was used in the presence of a 15-fold increase in extracellular calcium (4.8 mM) was the response to pregnenolone diminished. The data are interpreted as a further indication that, in intact cells, intracellular calcium plays a role in the steroidogenic pathway.     

Intracellular calcium as a modulator of transepithelial permeability to water in frog urinary bladder

The divalent cation ionophore A 23187 was used to evaluate the action of intracellular calcium on net transepithelial water movement across the isolated frog urinary bladder. Incubation with the ionophore increases the net basal water flux in a dose-dependent fashion but independent of the extracellular calcium concentration. Bladders pretreated with A 23187 and exposed thereafter to an increase in calcium concentration exhibit a water permeability that under certain conditions can be comparable to that achieved with antidiuretic hormone (ADH). Lowering the serosal calcium at the peak of the hydrosmotic responses to both ADH and A 23187 inhibited the maintenance of the net water flux. The action of a supramaximal dose of ADH is blunted in bladders pretreated with A 23187, while the hydrosmotic effects of a submaximal dose are enhanced when the ionophore is added together with the hormone. The results show that an increase in transepithelial water movement can be triggered by calcium and that serosal calcium is needed to sustain the response. This hydrosmotic response may be dependent upon the rate at which intracellular calcium concentrations change and on the absolute concentration attained. It is suggested that calcium is involved in the action of ADH on water permeability and may act as a modulator of the hydrosmotic response.     

Kinetics of inhibin secretion in static and superfused Sertoli cell cultures in response to follicle-stimulating hormone

It is generally accepted that inhibin secretion in the testis is regulated by FSH; however, the kinetics of inhibin secretion have not been well defined in vivo and in vitro. We investigated the kinetics of inhibin secretion in response to FSH stimulation in static and superfused Sertoli cell cultures. Sertoli cells from 18-day-old rats were cultured in chemically defined medium for 3 days and were then stimulated for different time periods with FSH (0.1 microgram/ml). In static cultures, media were changed every 2, 4, or 8 h, and the superfusion was carried out at a steady rate of 3 ml/h. Inhibin in the culture media was measured by RIA, using antiserum against synthetic replicate [30Tyr]inhibin alpha-chain-(1-30) and, in some experiments, also by bioassay. The dynamics of inhibin secretion were similar in static and superfused Sertoli cell cultures. A significant increase (p less than 0.01) of inhibin secretion was noted after 5-6 h of FSH exposure. After 8-12 h of continuous FSH presence, the secretion of inhibin reached a maximal level, 5-10-fold higher than basal secretion (no FSH). In the continuous presence of FSH, inhibin secretion remained stable at the high level for up to 54 h. FSH removal caused a delayed (8-h) decrease (p less than 0.01) of inhibin secretion, with return to control basal values after approximately 30 h. When FSH was removed 4 h after its addition, inhibin secretion again increased 5-10-fold between 4 and 12 h, then returned to basal values within 30 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

The role of calcium in the secretion of surfactant by rat alveolar type II cells

Beta adrenergic agonists, tetradecanoylphorbol acetate, and the ionophore A23187 all stimulate surfactant secretion in type II cells isolated from rats. We found that combinations of these agonists cause augmented secretion, suggesting that the agonists may effect different steps in the secretory process. Previous studies have shown that cAMP is likely to be an intracellular 'second messenger' in type II cells. A23187, which has been reported to increase cAMP in some cell systems, did not increase the cAMP content of type II cells. We investigated the possible role of Ca2+ as another 'second messenger' by studying cellular 45Ca fluxes and the effect of extracellular calcium depletion on secretion. Depletion of extracellular calcium for as long as 3 h did not alter stimulated secretion, although basal secretion was increased. Secretagogues did not stimulate 45Ca influx from extracellular sources. A23187 and, to a lesser extent, terbutaline caused an acceleration of 45Ca efflux from type II cells. The addition of terbutaline or tetradecanoylphorbol acetate to A23187 further accelerated 45Ca efflux, suggesting that these agonists may act on separate calcium pools or by different mechanisms on the same calcium pool. Although secretion from type II cells is not inhibited by extracellular calcium depletion, the studies on 45Ca efflux suggest that Ca2+ plays a role in the regulation of surfactant secretion from isolated type II cells.     

Influence of A23187 and dibutyryl cyclic AMP on progestagen production by rat granulosa cells in vitro

The gonadotrophic regulation of progesterone production by rat granulosa cells was examined in a chemically-defined medium containing FSH, dibutyryl cyclic AMP [Bu)2cAMP) and the calcium ionophore, A23187. FSH and A23187 alone significantly enhanced the production of pregnenolone, progesterone and its metabolite, 20 alpha-hydroxypregn-4-en-3-one (20 alpha-OH-P) from endogenous substrate(s). Stimulation of progesterone production by A23187 was accompanied by an increase in 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) but not 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) activity, as attested by enhancement of the metabolism of exogenous pregnenolone to progesterone but not of progesterone to 20 alpha-OH-P. In contrast, although (Bu)2cAMP increased pregnenolone and progesterone production and the metabolism of exogenous progesterone to 20 alpha-OH-P, it failed to stimulate the conversion of exogenous pregnenolone to progesterone. The increase in progesterone production and in the conversion of exogenous pregnenolone to progesterone by FSH and A23187 was concentration- and time-dependent. Whereas maximal stimulation of de-novo progesterone synthesis by FSH was evident by 6 h (earliest time examined), a significant increase in the conversion of exogenous pregnenolone to progesterone in the presence of FSH or the ionophore was not noted until 12 h of incubation. Although a small but significant increase in progesterone production was also noted as early as 6 h of incubation in the presence of the calcium ionophore, this was markedly smaller than that elicited by FSH. We conclude that the calcium ionophore A23187 and (Bu)2cAMP have similar as well as distinct effects on progesterone production in rat granulosa cells in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of extracellular calcium on cell permeabilization and growth regulation by the lymphokine leukoregulin

Permeablization of human K562 leukemia cells was measured in the presence and absence of extracellular ionic calcium to examine the relationship of ionic calcium to increased membrane permeability and the inhibition of cell proliferation by this lymphokine. In the absence of extracellular calcium, the ability of leukoregulin to permeabilize the cell membrane is diminished but is fully restored by addition of 1 mM extracellular Ca++ as shown flow cytometrically by loss of intracellular fluorescein. Membrane permeability is also increased by calcium ionophore A23187 but permeablization is completely blocked in calcium-free medium despite the intramembrane presence of the calcium ionophore. Membrane permeablization by the lectin phytohemagglutinin, in contrast, is independent of extracellular calcium. A similar divergence in cell proliferation activity of the three modulators of calcium flux and membrane permeability occurs in the absence of extracellular calcium. Leukoregulin inhibition of cell proliferation is abolished, inhibition by calcium ionophore A23817 is greatly reduced, and inhibition by phytohemagglutinin is unchanged. Leukoregulin permeabilized K562 cells isolated by fluorescence activated cell sorting resume proliferation after 72 h. In contrast cells permeablized by calcium ionophore A23187 or phytohemagglutinin fail to resume proliferation by 7 days. The membrane permeablizing action of leukoregulin is, therefore, partially dependent upon extracellular calcium. It is also effected through a mechanism other than calcium ionophore transport or lectin type transmembrane signaling, and is accompanied by a reversible inhibition of cell proliferation.     

Hormone interactions in the Sertoli cells.

The effects of follicle-stimulating hormone (FSH) and testosterone in rat Sertoli cells were investigated in vitro by means of isolated cell populations. The Sertoli cells selectively bind FSH, and respond to FSH stimulation with increased accumulation of endogenous cyclic AMP and secretion of androgen-binding protein (ABP). FSH binding and cyclic AMP response in the Sertoli cells change dramatically during sexual maturation. Cyclic AMP response decreases despite an increase in FSH-binding receptors per cell. Evidence has been provided for the existence of cytoplasmic and nuclear androgen receptors and chromatin acceptor-sites that specifically bind the androgen-receptor complex in the Sertoli cells. A model has been proposed for the hormonal interactions in the seminiferous tubule and the possible role of Sertoli cells in mediating the hormonal effects on spermatogenesis.     

A role for Na+-dependent Ca2+ extrusion in protection against neuronal excitotoxicity

The hypothesis that Na+-dependent calcium extrusion is important in protecting against neuronal excitotoxicity was tested. In cocultures of embryonic rat hippocampal neurons and mouse neuroblastoma hybrid (NCB-20) cells, calcium ionophore A23187 (1 microM) or high levels of extracellular K+ killed hippocampal neurons selectively, leaving NCB-20 cells unscathed. Hippocampal neurons showed large, sustained rises in intracellular calcium in response to A23187 or K+, whereas NCB-20 cells showed only transient calcium responses. The ability of NCB-20 cells to reduce the calcium load and to survive exposure to A23187 or K+ were dependent on extracellular Na+, suggesting that an active Na+/Ca2+ exchange mechanism was important in protecting against cell death. Finally, removal of extracellular Na+ reduced the threshold for glutamate neurotoxicity in hippocampal neurons, demonstrating the importance of Na+/Ca2+ exchange in protecting against excitotoxicity. Taken together, these findings suggest that differences in cell calcium-regulating systems may determine whether a neuron lives or degenerates in the face of an excitatory challenge.     

Homologous desensitization of rat Sertoli cells by non-stimulating concentrations of follicle-stimulating hormone

Pre-incubation of rat Sertoli cells with concentrations of follicle-stimulating hormone (FSH) too low to stimulate plasminogen activator (PA) secretion, provoked an inhibition of its subsequent stimulation by an effective dose of the hormone. A kinetic study of this desensitization was performed using equine FSH (which exhibits prolonged stimulation of PA secretion) and porcine FSH (which like all other FSH tested, provokes a transient response). Low non-stimulating concentrations of both hormones were shown to inhibit the subsequent PA response to each of them. Desensitization of rat Sertoli cells by low (non-stimulating) concentrations of FSH did not modify the typical time course (transient or prolonged) of PA secretion under subsequent stimulation by porcine or equine FSH, respectively. Only the intensity of the response to each hormone was dramatically reduced. Besides, the induction of desensitization by these non-stimulating concentrations of FSH was shown to be very rapid (10-15 min). The precise mechanism of this desensitization is not yet clear but its abolishment by the cyclic nucleotide phosphodiesterase (PDE) inhibitor MIX is consistent with the hypothesis that activation of PDE occurs at lower FSH concentration than adenylate cyclase activation.     

The role of calcium in signal transduction processes in Sertoli cells

Sertoli cells play a pivotal role in regulation and maintenance of spermatogenesis. They are hormonally regulated predominantly by follicle-stimulating hormone (FSH) and testosterone (T). Although FSH and T have distinct mechanisms of action they act synergistically in promoting spermatogenesis. Stimulation of freshly isolated Sertoli cells with FSH evokes a prompt rise in cytosolic calcium which is quantitatively reproduced by cAMP. The cytosolic calcium response to FSH in Sertoli cells is predominantly attributable to serial signaling after the generation of endogenous cAMP. Calcium homeostasis of Sertoli cells may also be regulated by cAMP-independent metabolism. Vasoactive testicular paracrine hormones such as angiotensin II (AII) and vasopressin acting via inositol triphosphate generation induce cytosolic calcium rise predominantly derived from the thapsigargin-sensitive endoplasmic reticulum. Investigations involving androgens action on cytosolic calcium reveal a common mechanism of action between the peptide and steroid regulators of Sertoli cell function, indicating that cytosolic calcium ions may represent a unifying biochemical mechanism that could explain the synergism of FSH and T. Androgens rapidly and specifically increase cytosolic calcium, consistent with a plasma membrane site of action. This argues for the possible existence of a short term non-genomic signaling pathway in hormonal regulation of Sertoli cell function in addition to the classical longer term, slower genomic response.     

Age-dependent changes in the in-vitro response of a pig Sertoli cell-enriched population to FSH

The response of pig Sertoli cell-enriched cultures to FSH was investigated by measuring plasminogen activator (PA) secretion in culture, throughout the nonpubertal and prepubertal periods. Sertoli cell-enriched populations could be isolated from birth until a testicular weight of 56 g. FSH elicited a dose-dependent increase in PA secretion by pig Sertoli cell-enriched cultures. The ED50 was minimal for cells coming from testes weighing 10-22 g, and increased more than 2-fold for cells from heavier testes. This suggests that, at the end of the non-pubertal period, an increased FSH sensitivity is important for initiation of spermatogenesis in this species, and that during the prepubertal period Sertoli cells become less sensitive to FSH. The FSH-stimulated PA secretion increased about 10-fold from a testicular weight of 25 g onwards, i.e. when primary spermatocytes appear in seminiferous tubules.